Forwarded from: Original XQ Life Education Observation 2018-07-17
With microscopes with different magnifications, you will be happy to see what the world has never seen before!
The surface of the strawberry
hair
Dust in the home, including hair, synthetic fibers, insect scales, pollen, plants and insect debris
Jumping spider eyes under high magnification, terrifying
This is a magnified bed bug
What exactly does a mite look like? Long like this
Enlarge 8,000-fold bone cancer cells
This is a gem beetle under the microscope
Further enlarged gem beetle carapace
Ants carrying larvae
At this scale, mouse cerebrovascular is like this
The stomata of the leaves had only been heard in textbooks before
Tabby water fleas are tiny creatures in their own right
22 h after fertilization, live zebrafish embryos
This is the spine of an ordinary wasp
The eyes of ants, complex structure
Melamine crystals observed in high magnification
This is a microalgae
Rhomboid splitting in calcite crystals
Take a closer look at what the snowflakes look like
Flower embryos, very strange under the microscope
One of them is a dog lice and the other is a tick
The figure includes hydra and algae
This is the body part of the common brine shrimp ... Don't dare to eat shrimp anymore!
Human head lice clutching their hair
It's not grapes, it's the eyes of mosquitoes
Bacteria on the surface of the human tongue
Eyebrows that are growing on the surface of human skin
Rusty metal nail surface
Chalk doesn't look like chalk under a microscope
Calcium carbonate crystals
Razor between the two blades of hair and shaving foam
The head of a mosquito
The end of the tongue (proboscis) of a moth
Butterfly eggs that have hatched
Pores of a leaf: The photo is the pores of a leaf. These openings are essential for photosynthesis. Air, carbon dioxide and oxygen all enter and exit the plant through the stomata. Plants absorb carbon dioxide, which, after photosynthesis, obtains a by-product, oxygen, and releases it outward through these openings. Underneath every square centimeter of leaves, there are as many as 30,000 such openings. (Image source: Taken by Hilde Kolstad, senior engineer at NMBU Imaging Center, and colored by Egil Paulsen)
Amoeba: Amoeba is a single-celled organism that is about half a millimeter in size. They live in the sea, found in freshwater, moist soil and parasites on animals, and kill about 100,000 people a year. Pictured is an amoeba. It causes gill disease, a disease seen in aquaculture. (Image source: Norwegian Veterinary Research Institute)
Annular hydrangea: It looks like a flower, but is a carnivore from the animal kingdom and is classified as a hydra, which also includes jellyfish and corals. It has an open mouth and can use its tentacles to catch plankton and other small floating victims. They usually grow on solid surfaces in seawater, such as buoys, mussels, ropes, rocks, and ship hulls. (Image source: Norwegian Veterinary Research Institute)
Ring-shaped fleas can clog fences in aquaculture facilities, such as fish farms. Researchers have tried to remove them with acids, such as vinegar. In case of danger, it protects its reproductive organs with its tentacles.
Cross-section of wheat rhizome: The photograph was taken through a microscope and shows the cross-section of the root of wheat, which is a sponge tissue called aerated tissue, which is the oxygen space or channel produced when a plant is saturated with too much water in the soil and has insufficient oxygen. (Image source: NMBU and AGROPRO project researcher Tove Sundgren)
Beetle: In the photographs taken by electron microscope scans, there is the foot of a ladybug, which comes from a beautiful fungal beetle. (Image source: RANNVEIG M of NMBU. Jacobsen with assistance from Hilde Kolstad at the NMBU Imaging Center)
Have you been blown away by these fiber photos? Compared to the creatures or objects on these fiber pictures, how can we humans not be a sand in this universe?